If I have a completely closed system (a cube with all six sides walls) that contained a premixed fuel and air (at stoichiomteric ratio) and I 'burn' it, what happens to the density and the pressure? The volume is fixed and so is the mass. Therefore, if the density of the mixture drops due to combustion, then the volume has to increase unless the pressure increases and forces the density back to its original value. Is this correct? Does this occur instantaneously? What is the interaction (and time history) of the pressure and density.

matej

December 7, 2004 06:29

Re: Combustion in a closed system.

HI,

It depends also on the heat transfer to the walls. Another important parameter is wall-area to vessel volume ratio, especially with small devices. When you remove the heat from the vessel during the combustion (or after) the pressure -- so the density will go down, but not exactly to the original state.

with a simple search on sciencedirect.com I run into interesting article which might help you:

Thank you. It is an interesting paper. I am more interested in the case where the system is fully closed and there is no heat transfer through the walls. There is also no work done by any increase in pressure as the box is perfectly rigid. This may not be possible to achieve in reality, but I would still appreciate any observations on the likely behaviour of the density, pressure and temperature in such a box.

MLD

December 7, 2004 10:52

Re: Combustion in a closed system.

You would need to know about the thermodynamics of your reaction to calculate teh temperature. If you know this and you can guess your reaction products (or at least how many moles of reactant go to how many moles of gas), you can calculate the pressure from the ideal gas law. As for density, again you need to know the reaction products and calculate the mass.

There has been work done by the University of Leeds chemistry group (really a definitive source for combustion researhc) on closed combustion behaviour. One of teh simplest systems being H2 + O2. I would suggest looking for authors: Griffiths, J; Gray, P; and Scott, S.K.

An excellent monograph by Gray and Scott ("Chemical Oscillations and Instabilities") gives details of the extent of research at Leeds.

All the best M

Jim_Park

December 7, 2004 15:39

Re: Combustion in a closed system.

If the system is closed (no mass enters or leaves),

then it seems the density, which is mass / volume, can change only due to change in system volume. That is, the volume of the reaction chamber.

A perfect chamber would be constant volume (one of your listed assumptions), so the density is constant through the process!

This of course allows spatial variation of density within the volume - but the overall volume-averaged density has to be constant.

What am I missing?

paul shaw

December 9, 2004 06:08

Re: Combustion in a closed system.

dear jim,

does this restriction on the density prevent combustion from occuring though?

if average denisty cannot change then the fuel can not burn - is this correct?

Jim_Park

December 9, 2004 11:57

Re: Combustion in a closed system.

I think it's pretty fundamental.

If you have a fixed volume and a fixed mass (didn't you assume this?), the average density must be constant.

There's a lot of mischief hidden in "average." Certainly, at the ignition point and time, the pressure and temperature will shoot up as energy is released. What does this imply for the density at the ignition point? Depends on your equation of state.

For the density to change at the ignition point, mass must move within the volume. If the density goes up at the ignition point, it has to go down elsewhere. And vice versa. Otherwise, you're creating or destroying mass.

paul shaw

December 9, 2004 14:49

Re: Combustion in a closed system.

so if the density goes down somewhere (due to combustion) the density elsewhere must go up (it will be compressed?)?

what if we assume incompressiblily (in that density is not a function of pressure). what would happen then. the highest density is likely to be the pure fuel, so how can it go up any further???